| /* |
| * Copyright (C) 2016 The Android Open Source Project |
| * |
| * Licensed under the Apache License, Version 2.0 (the "License"); |
| * you may not use this file except in compliance with the License. |
| * You may obtain a copy of the License at |
| * |
| * http://www.apache.org/licenses/LICENSE-2.0 |
| * |
| * Unless required by applicable law or agreed to in writing, software |
| * distributed under the License is distributed on an "AS IS" BASIS, |
| * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| * See the License for the specific language governing permissions and |
| * limitations under the License. |
| */ |
| |
| // The bootstat command provides options to persist boot events with the current |
| // timestamp, dump the persisted events, and log all events to EventLog to be |
| // uploaded to Android log storage via Tron. |
| |
| #include <getopt.h> |
| #include <sys/klog.h> |
| #include <unistd.h> |
| |
| #include <chrono> |
| #include <cmath> |
| #include <cstddef> |
| #include <cstdio> |
| #include <ctime> |
| #include <map> |
| #include <memory> |
| #include <string> |
| #include <vector> |
| |
| #include <android-base/chrono_utils.h> |
| #include <android-base/file.h> |
| #include <android-base/logging.h> |
| #include <android-base/parseint.h> |
| #include <android-base/properties.h> |
| #include <android-base/strings.h> |
| #include <android/log.h> |
| #include <cutils/android_reboot.h> |
| #include <cutils/properties.h> |
| #include <log/logcat.h> |
| #include <metricslogger/metrics_logger.h> |
| #include <statslog.h> |
| |
| #include "boot_event_record_store.h" |
| |
| namespace { |
| |
| // Scans the boot event record store for record files and logs each boot event |
| // via EventLog. |
| void LogBootEvents() { |
| BootEventRecordStore boot_event_store; |
| |
| auto events = boot_event_store.GetAllBootEvents(); |
| for (auto i = events.cbegin(); i != events.cend(); ++i) { |
| android::metricslogger::LogHistogram(i->first, i->second); |
| } |
| } |
| |
| // Records the named boot |event| to the record store. If |value| is non-empty |
| // and is a proper string representation of an integer value, the converted |
| // integer value is associated with the boot event. |
| void RecordBootEventFromCommandLine(const std::string& event, const std::string& value_str) { |
| BootEventRecordStore boot_event_store; |
| if (!value_str.empty()) { |
| int32_t value = 0; |
| if (android::base::ParseInt(value_str, &value)) { |
| boot_event_store.AddBootEventWithValue(event, value); |
| } |
| } else { |
| boot_event_store.AddBootEvent(event); |
| } |
| } |
| |
| void PrintBootEvents() { |
| printf("Boot events:\n"); |
| printf("------------\n"); |
| |
| BootEventRecordStore boot_event_store; |
| auto events = boot_event_store.GetAllBootEvents(); |
| for (auto i = events.cbegin(); i != events.cend(); ++i) { |
| printf("%s\t%d\n", i->first.c_str(), i->second); |
| } |
| } |
| |
| void ShowHelp(const char* cmd) { |
| fprintf(stderr, "Usage: %s [options]\n", cmd); |
| fprintf(stderr, |
| "options include:\n" |
| " -h, --help Show this help\n" |
| " -l, --log Log all metrics to logstorage\n" |
| " -p, --print Dump the boot event records to the console\n" |
| " -r, --record Record the timestamp of a named boot event\n" |
| " --value Optional value to associate with the boot event\n" |
| " --record_boot_complete Record metrics related to the time for the device boot\n" |
| " --record_boot_reason Record the reason why the device booted\n" |
| " --record_time_since_factory_reset Record the time since the device was reset\n"); |
| } |
| |
| // Constructs a readable, printable string from the givencommand line |
| // arguments. |
| std::string GetCommandLine(int argc, char** argv) { |
| std::string cmd; |
| for (int i = 0; i < argc; ++i) { |
| cmd += argv[i]; |
| cmd += " "; |
| } |
| |
| return cmd; |
| } |
| |
| // Convenience wrapper over the property API that returns an |
| // std::string. |
| std::string GetProperty(const char* key) { |
| std::vector<char> temp(PROPERTY_VALUE_MAX); |
| const int len = property_get(key, &temp[0], nullptr); |
| if (len < 0) { |
| return ""; |
| } |
| return std::string(&temp[0], len); |
| } |
| |
| void SetProperty(const char* key, const std::string& val) { |
| property_set(key, val.c_str()); |
| } |
| |
| void SetProperty(const char* key, const char* val) { |
| property_set(key, val); |
| } |
| |
| constexpr int32_t kEmptyBootReason = 0; |
| constexpr int32_t kUnknownBootReason = 1; |
| |
| // A mapping from boot reason string, as read from the ro.boot.bootreason |
| // system property, to a unique integer ID. Viewers of log data dashboards for |
| // the boot_reason metric may refer to this mapping to discern the histogram |
| // values. |
| const std::map<std::string, int32_t> kBootReasonMap = { |
| {"empty", kEmptyBootReason}, |
| {"unknown", kUnknownBootReason}, |
| {"normal", 2}, |
| {"recovery", 3}, |
| {"reboot", 4}, |
| {"PowerKey", 5}, |
| {"hard_reset", 6}, |
| {"kernel_panic", 7}, |
| {"rpm_err", 8}, |
| {"hw_reset", 9}, |
| {"tz_err", 10}, |
| {"adsp_err", 11}, |
| {"modem_err", 12}, |
| {"mba_err", 13}, |
| {"Watchdog", 14}, |
| {"Panic", 15}, |
| {"power_key", 16}, |
| {"power_on", 17}, |
| {"Reboot", 18}, |
| {"rtc", 19}, |
| {"edl", 20}, |
| {"oem_pon1", 21}, |
| {"oem_powerkey", 22}, |
| {"oem_unknown_reset", 23}, |
| {"srto: HWWDT reset SC", 24}, |
| {"srto: HWWDT reset platform", 25}, |
| {"srto: bootloader", 26}, |
| {"srto: kernel panic", 27}, |
| {"srto: kernel watchdog reset", 28}, |
| {"srto: normal", 29}, |
| {"srto: reboot", 30}, |
| {"srto: reboot-bootloader", 31}, |
| {"srto: security watchdog reset", 32}, |
| {"srto: wakesrc", 33}, |
| {"srto: watchdog", 34}, |
| {"srto:1-1", 35}, |
| {"srto:omap_hsmm", 36}, |
| {"srto:phy0", 37}, |
| {"srto:rtc0", 38}, |
| {"srto:touchpad", 39}, |
| {"watchdog", 40}, |
| {"watchdogr", 41}, |
| {"wdog_bark", 42}, |
| {"wdog_bite", 43}, |
| {"wdog_reset", 44}, |
| {"shutdown,", 45}, // Trailing comma is intentional. |
| {"shutdown,userrequested", 46}, |
| {"reboot,bootloader", 47}, |
| {"reboot,cold", 48}, |
| {"reboot,recovery", 49}, |
| {"thermal_shutdown", 50}, |
| {"s3_wakeup", 51}, |
| {"kernel_panic,sysrq", 52}, |
| {"kernel_panic,NULL", 53}, |
| {"kernel_panic,BUG", 54}, |
| {"bootloader", 55}, |
| {"cold", 56}, |
| {"hard", 57}, |
| {"warm", 58}, |
| {"recovery", 59}, |
| {"thermal-shutdown", 60}, |
| {"shutdown,thermal", 61}, |
| {"shutdown,battery", 62}, |
| {"reboot,ota", 63}, |
| {"reboot,factory_reset", 64}, |
| {"reboot,", 65}, |
| {"reboot,shell", 66}, |
| {"reboot,adb", 67}, |
| {"reboot,userrequested", 68}, |
| {"shutdown,container", 69}, // Host OS asking Android Container to shutdown |
| {"cold,powerkey", 70}, |
| {"warm,s3_wakeup", 71}, |
| {"hard,hw_reset", 72}, |
| {"shutdown,suspend", 73}, // Suspend to RAM |
| {"shutdown,hibernate", 74}, // Suspend to DISK |
| {"power_on_key", 75}, |
| {"reboot_by_key", 76}, |
| {"wdt_by_pass_pwk", 77}, |
| {"reboot_longkey", 78}, |
| {"powerkey", 79}, |
| {"usb", 80}, |
| {"wdt", 81}, |
| {"tool_by_pass_pwk", 82}, |
| {"2sec_reboot", 83}, |
| {"reboot,by_key", 84}, |
| {"reboot,longkey", 85}, |
| {"reboot,2sec", 86}, |
| {"shutdown,thermal,battery", 87}, |
| {"reboot,its_just_so_hard", 88}, // produced by boot_reason_test |
| {"reboot,Its Just So Hard", 89}, // produced by boot_reason_test |
| {"usb", 90}, |
| {"charge", 91}, |
| {"oem_tz_crash", 92}, |
| {"uvlo", 93}, |
| {"oem_ps_hold", 94}, |
| {"abnormal_reset", 95}, |
| {"oemerr_unknown", 96}, |
| {"reboot_fastboot_mode", 97}, |
| {"watchdog_apps_bite", 98}, |
| {"xpu_err", 99}, |
| {"power_on_usb", 100}, |
| {"watchdog_rpm", 101}, |
| {"watchdog_nonsec", 102}, |
| {"watchdog_apps_bark", 103}, |
| {"reboot_dmverity_corrupted", 104}, |
| {"reboot_smpl", 105}, |
| {"watchdog_sdi_apps_reset", 106}, |
| {"smpl", 107}, |
| {"oem_modem_failed_to_powerup", 108}, |
| {"reboot_normal", 109}, |
| {"oem_lpass_cfg", 110}, |
| {"oem_xpu_ns_error", 111}, |
| {"power_key_press", 112}, |
| {"hardware_reset", 113}, |
| {"reboot_by_powerkey", 114}, |
| {"reboot_verity", 115}, |
| {"oem_rpm_undef_error", 116}, |
| {"oem_crash_on_the_lk", 117}, |
| {"oem_rpm_reset", 118}, |
| {"oem_lpass_cfg", 119}, |
| {"oem_xpu_ns_error", 120}, |
| {"factory_cable", 121}, |
| {"oem_ar6320_failed_to_powerup", 122}, |
| {"watchdog_rpm_bite", 123}, |
| {"power_on_cable", 124}, |
| {"reboot_unknown", 125}, |
| {"wireless_charger", 126}, |
| {"0x776655ff", 127}, |
| {"oem_thermal_bite_reset", 128}, |
| {"charger", 129}, |
| {"pon1", 130}, |
| {"unknown", 131}, |
| {"reboot_rtc", 132}, |
| {"cold_boot", 133}, |
| {"hard_rst", 134}, |
| {"power-on", 135}, |
| {"oem_adsp_resetting_the_soc", 136}, |
| {"kpdpwr", 137}, |
| {"oem_modem_timeout_waiting", 138}, |
| {"usb_chg", 139}, |
| {"warm_reset_0x02", 140}, |
| {"warm_reset_0x80", 141}, |
| {"pon_reason_0xb0", 142}, |
| {"reboot_download", 143}, |
| {"reboot_recovery_mode", 144}, |
| {"oem_sdi_err_fatal", 145}, |
| {"pmic_watchdog", 146}, |
| {"software_master", 147}, |
| }; |
| |
| // Converts a string value representing the reason the system booted to an |
| // integer representation. This is necessary for logging the boot_reason metric |
| // via Tron, which does not accept non-integer buckets in histograms. |
| int32_t BootReasonStrToEnum(const std::string& boot_reason) { |
| auto mapping = kBootReasonMap.find(boot_reason); |
| if (mapping != kBootReasonMap.end()) { |
| return mapping->second; |
| } |
| |
| if (boot_reason.empty()) { |
| return kEmptyBootReason; |
| } |
| |
| LOG(INFO) << "Unknown boot reason: " << boot_reason; |
| return kUnknownBootReason; |
| } |
| |
| // Canonical list of supported primary reboot reasons. |
| const std::vector<const std::string> knownReasons = { |
| // clang-format off |
| // kernel |
| "watchdog", |
| "kernel_panic", |
| // strong |
| "recovery", // Should not happen from ro.boot.bootreason |
| "bootloader", // Should not happen from ro.boot.bootreason |
| // blunt |
| "cold", |
| "hard", |
| "warm", |
| // super blunt |
| "shutdown", // Can not happen from ro.boot.bootreason |
| "reboot", // Default catch-all for anything unknown |
| // clang-format on |
| }; |
| |
| // Returns true if the supplied reason prefix is considered detailed enough. |
| bool isStrongRebootReason(const std::string& r) { |
| for (auto& s : knownReasons) { |
| if (s == "cold") break; |
| // Prefix defined as terminated by a nul or comma (,). |
| if (android::base::StartsWith(r, s) && ((r.length() == s.length()) || (r[s.length()] == ','))) { |
| return true; |
| } |
| } |
| return false; |
| } |
| |
| // Returns true if the supplied reason prefix is associated with the kernel. |
| bool isKernelRebootReason(const std::string& r) { |
| for (auto& s : knownReasons) { |
| if (s == "recovery") break; |
| // Prefix defined as terminated by a nul or comma (,). |
| if (android::base::StartsWith(r, s) && ((r.length() == s.length()) || (r[s.length()] == ','))) { |
| return true; |
| } |
| } |
| return false; |
| } |
| |
| // Returns true if the supplied reason prefix is considered known. |
| bool isKnownRebootReason(const std::string& r) { |
| for (auto& s : knownReasons) { |
| // Prefix defined as terminated by a nul or comma (,). |
| if (android::base::StartsWith(r, s) && ((r.length() == s.length()) || (r[s.length()] == ','))) { |
| return true; |
| } |
| } |
| return false; |
| } |
| |
| // If the reboot reason should be improved, report true if is too blunt. |
| bool isBluntRebootReason(const std::string& r) { |
| if (isStrongRebootReason(r)) return false; |
| |
| if (!isKnownRebootReason(r)) return true; // Can not support unknown as detail |
| |
| size_t pos = 0; |
| while ((pos = r.find(',', pos)) != std::string::npos) { |
| ++pos; |
| std::string next(r.substr(pos)); |
| if (next.length() == 0) break; |
| if (next[0] == ',') continue; |
| if (!isKnownRebootReason(next)) return false; // Unknown subreason is good. |
| if (isStrongRebootReason(next)) return false; // eg: reboot,reboot |
| } |
| return true; |
| } |
| |
| bool readPstoreConsole(std::string& console) { |
| if (android::base::ReadFileToString("/sys/fs/pstore/console-ramoops-0", &console)) { |
| return true; |
| } |
| return android::base::ReadFileToString("/sys/fs/pstore/console-ramoops", &console); |
| } |
| |
| // Implement a variant of std::string::rfind that is resilient to errors in |
| // the data stream being inspected. |
| class pstoreConsole { |
| private: |
| const size_t kBitErrorRate = 8; // number of bits per error |
| const std::string& console; |
| |
| // Number of bits that differ between the two arguments l and r. |
| // Returns zero if the values for l and r are identical. |
| size_t numError(uint8_t l, uint8_t r) const { return std::bitset<8>(l ^ r).count(); } |
| |
| // A string comparison function, reports the number of errors discovered |
| // in the match to a maximum of the bitLength / kBitErrorRate, at that |
| // point returning npos to indicate match is too poor. |
| // |
| // Since called in rfind which works backwards, expect cache locality will |
| // help if we check in reverse here as well for performance. |
| // |
| // Assumption: l (from console.c_str() + pos) is long enough to house |
| // _r.length(), checked in rfind caller below. |
| // |
| size_t numError(size_t pos, const std::string& _r) const { |
| const char* l = console.c_str() + pos; |
| const char* r = _r.c_str(); |
| size_t n = _r.length(); |
| const uint8_t* le = reinterpret_cast<const uint8_t*>(l) + n; |
| const uint8_t* re = reinterpret_cast<const uint8_t*>(r) + n; |
| size_t count = 0; |
| n = 0; |
| do { |
| // individual character bit error rate > threshold + slop |
| size_t num = numError(*--le, *--re); |
| if (num > ((8 + kBitErrorRate) / kBitErrorRate)) return std::string::npos; |
| // total bit error rate > threshold + slop |
| count += num; |
| ++n; |
| if (count > ((n * 8 + kBitErrorRate - (n > 2)) / kBitErrorRate)) { |
| return std::string::npos; |
| } |
| } while (le != reinterpret_cast<const uint8_t*>(l)); |
| return count; |
| } |
| |
| public: |
| explicit pstoreConsole(const std::string& console) : console(console) {} |
| // scope of argument must be equal to or greater than scope of pstoreConsole |
| explicit pstoreConsole(const std::string&& console) = delete; |
| explicit pstoreConsole(std::string&& console) = delete; |
| |
| // Our implementation of rfind, use exact match first, then resort to fuzzy. |
| size_t rfind(const std::string& needle) const { |
| size_t pos = console.rfind(needle); // exact match? |
| if (pos != std::string::npos) return pos; |
| |
| // Check to make sure needle fits in console string. |
| pos = console.length(); |
| if (needle.length() > pos) return std::string::npos; |
| pos -= needle.length(); |
| // fuzzy match to maximum kBitErrorRate |
| for (;;) { |
| if (numError(pos, needle) != std::string::npos) return pos; |
| if (pos == 0) break; |
| --pos; |
| } |
| return std::string::npos; |
| } |
| |
| // Our implementation of find, use only fuzzy match. |
| size_t find(const std::string& needle, size_t start = 0) const { |
| // Check to make sure needle fits in console string. |
| if (needle.length() > console.length()) return std::string::npos; |
| const size_t last_pos = console.length() - needle.length(); |
| // fuzzy match to maximum kBitErrorRate |
| for (size_t pos = start; pos <= last_pos; ++pos) { |
| if (numError(pos, needle) != std::string::npos) return pos; |
| } |
| return std::string::npos; |
| } |
| }; |
| |
| // If bit error match to needle, correct it. |
| // Return true if any corrections were discovered and applied. |
| bool correctForBer(std::string& reason, const std::string& needle) { |
| bool corrected = false; |
| if (reason.length() < needle.length()) return corrected; |
| const pstoreConsole console(reason); |
| const size_t last_pos = reason.length() - needle.length(); |
| for (size_t pos = 0; pos <= last_pos; pos += needle.length()) { |
| pos = console.find(needle, pos); |
| if (pos == std::string::npos) break; |
| |
| // exact match has no malice |
| if (needle == reason.substr(pos, needle.length())) continue; |
| |
| corrected = true; |
| reason = reason.substr(0, pos) + needle + reason.substr(pos + needle.length()); |
| } |
| return corrected; |
| } |
| |
| bool addKernelPanicSubReason(const pstoreConsole& console, std::string& ret) { |
| // Check for kernel panic types to refine information |
| if (console.rfind("SysRq : Trigger a crash") != std::string::npos) { |
| // Can not happen, except on userdebug, during testing/debugging. |
| ret = "kernel_panic,sysrq"; |
| return true; |
| } |
| if (console.rfind("Unable to handle kernel NULL pointer dereference at virtual address") != |
| std::string::npos) { |
| ret = "kernel_panic,NULL"; |
| return true; |
| } |
| if (console.rfind("Kernel BUG at ") != std::string::npos) { |
| ret = "kernel_panic,BUG"; |
| return true; |
| } |
| return false; |
| } |
| |
| bool addKernelPanicSubReason(const std::string& content, std::string& ret) { |
| return addKernelPanicSubReason(pstoreConsole(content), ret); |
| } |
| |
| // std::transform Helper callback functions: |
| // Converts a string value representing the reason the system booted to a |
| // string complying with Android system standard reason. |
| char tounderline(char c) { |
| return ::isblank(c) ? '_' : c; |
| } |
| |
| char toprintable(char c) { |
| return ::isprint(c) ? c : '?'; |
| } |
| |
| // Cleanup boot_reason regarding acceptable character set |
| void transformReason(std::string& reason) { |
| std::transform(reason.begin(), reason.end(), reason.begin(), ::tolower); |
| std::transform(reason.begin(), reason.end(), reason.begin(), tounderline); |
| std::transform(reason.begin(), reason.end(), reason.begin(), toprintable); |
| } |
| |
| const char system_reboot_reason_property[] = "sys.boot.reason"; |
| const char last_reboot_reason_property[] = LAST_REBOOT_REASON_PROPERTY; |
| const char bootloader_reboot_reason_property[] = "ro.boot.bootreason"; |
| |
| // Scrub, Sanitize, Standardize and Enhance the boot reason string supplied. |
| std::string BootReasonStrToReason(const std::string& boot_reason) { |
| static const size_t max_reason_length = 256; |
| |
| std::string ret(GetProperty(system_reboot_reason_property)); |
| std::string reason(boot_reason); |
| // If sys.boot.reason == ro.boot.bootreason, let's re-evaluate |
| if (reason == ret) ret = ""; |
| |
| transformReason(reason); |
| |
| // Is the current system boot reason sys.boot.reason valid? |
| if (!isKnownRebootReason(ret)) ret = ""; |
| |
| if (ret == "") { |
| // Is the bootloader boot reason ro.boot.bootreason known? |
| std::vector<std::string> words(android::base::Split(reason, ",_-")); |
| for (auto& s : knownReasons) { |
| std::string blunt; |
| for (auto& r : words) { |
| if (r == s) { |
| if (isBluntRebootReason(s)) { |
| blunt = s; |
| } else { |
| ret = s; |
| break; |
| } |
| } |
| } |
| if (ret == "") ret = blunt; |
| if (ret != "") break; |
| } |
| } |
| |
| if (ret == "") { |
| // A series of checks to take some officially unsupported reasons |
| // reported by the bootloader and find some logical and canonical |
| // sense. In an ideal world, we would require those bootloaders |
| // to behave and follow our standards. |
| static const std::vector<std::pair<const std::string, const std::string>> aliasReasons = { |
| {"watchdog", "wdog"}, |
| {"cold,powerkey", "powerkey"}, |
| {"kernel_panic", "panic"}, |
| {"shutdown,thermal", "thermal"}, |
| {"warm,s3_wakeup", "s3_wakeup"}, |
| {"hard,hw_reset", "hw_reset"}, |
| {"reboot,2sec", "2sec_reboot"}, |
| {"bootloader", ""}, |
| }; |
| |
| // Either the primary or alias is found _somewhere_ in the reason string. |
| for (auto& s : aliasReasons) { |
| if (reason.find(s.first) != std::string::npos) { |
| ret = s.first; |
| break; |
| } |
| if (s.second.size() && (reason.find(s.second) != std::string::npos)) { |
| ret = s.first; |
| break; |
| } |
| } |
| } |
| |
| // If watchdog is the reason, see if there is a security angle? |
| if (ret == "watchdog") { |
| if (reason.find("sec") != std::string::npos) { |
| ret += ",security"; |
| } |
| } |
| |
| if (ret == "kernel_panic") { |
| // Check to see if last klog has some refinement hints. |
| std::string content; |
| if (readPstoreConsole(content)) { |
| addKernelPanicSubReason(content, ret); |
| } |
| } else if (isBluntRebootReason(ret)) { |
| // Check the other available reason resources if the reason is still blunt. |
| |
| // Check to see if last klog has some refinement hints. |
| std::string content; |
| if (readPstoreConsole(content)) { |
| const pstoreConsole console(content); |
| // The toybox reboot command used directly (unlikely)? But also |
| // catches init's response to Android's more controlled reboot command. |
| if (console.rfind("reboot: Power down") != std::string::npos) { |
| ret = "shutdown"; // Still too blunt, but more accurate. |
| // ToDo: init should record the shutdown reason to kernel messages ala: |
| // init: shutdown system with command 'last_reboot_reason' |
| // so that if pstore has persistence we can get some details |
| // that could be missing in last_reboot_reason_property. |
| } |
| |
| static const char cmd[] = "reboot: Restarting system with command '"; |
| size_t pos = console.rfind(cmd); |
| if (pos != std::string::npos) { |
| pos += strlen(cmd); |
| std::string subReason(content.substr(pos, max_reason_length)); |
| // Correct against any known strings that Bit Error Match |
| for (const auto& s : knownReasons) { |
| correctForBer(subReason, s); |
| } |
| for (const auto& m : kBootReasonMap) { |
| if (m.first.length() <= strlen("cold")) continue; // too short? |
| if (correctForBer(subReason, m.first + "'")) continue; |
| if (m.first.length() <= strlen("reboot,cold")) continue; // short? |
| if (!android::base::StartsWith(m.first, "reboot,")) continue; |
| correctForBer(subReason, m.first.substr(strlen("reboot,")) + "'"); |
| } |
| for (pos = 0; pos < subReason.length(); ++pos) { |
| char c = subReason[pos]; |
| // #, &, %, / are common single bit error for ' that we can block |
| if (!::isprint(c) || (c == '\'') || (c == '#') || (c == '&') || (c == '%') || (c == '/')) { |
| subReason.erase(pos); |
| break; |
| } |
| } |
| transformReason(subReason); |
| if (subReason != "") { // Will not land "reboot" as that is too blunt. |
| if (isKernelRebootReason(subReason)) { |
| ret = "reboot," + subReason; // User space can't talk kernel reasons. |
| } else if (isKnownRebootReason(subReason)) { |
| ret = subReason; |
| } else { |
| ret = "reboot," + subReason; // legitimize unknown reasons |
| } |
| } |
| } |
| |
| // Check for kernel panics, allowed to override reboot command. |
| if (!addKernelPanicSubReason(console, ret) && |
| // check for long-press power down |
| ((console.rfind("Power held for ") != std::string::npos) || |
| (console.rfind("charger: [") != std::string::npos))) { |
| ret = "cold"; |
| } |
| } |
| |
| // The following battery test should migrate to a default system health HAL |
| |
| // Let us not worry if the reboot command was issued, for the cases of |
| // reboot -p, reboot <no reason>, reboot cold, reboot warm and reboot hard. |
| // Same for bootloader and ro.boot.bootreasons of this set, but a dead |
| // battery could conceivably lead to these, so worthy of override. |
| if (isBluntRebootReason(ret)) { |
| // Heuristic to determine if shutdown possibly because of a dead battery? |
| // Really a hail-mary pass to find it in last klog content ... |
| static const int battery_dead_threshold = 2; // percent |
| static const char battery[] = "healthd: battery l="; |
| const pstoreConsole console(content); |
| size_t pos = console.rfind(battery); // last one |
| std::string digits; |
| if (pos != std::string::npos) { |
| digits = content.substr(pos + strlen(battery), strlen("100 ")); |
| // correct common errors |
| correctForBer(digits, "100 "); |
| if (digits[0] == '!') digits[0] = '1'; |
| if (digits[1] == '!') digits[1] = '1'; |
| } |
| const char* endptr = digits.c_str(); |
| unsigned level = 0; |
| while (::isdigit(*endptr)) { |
| level *= 10; |
| level += *endptr++ - '0'; |
| // make sure no leading zeros, except zero itself, and range check. |
| if ((level == 0) || (level > 100)) break; |
| } |
| // example bit error rate issues for 10% |
| // 'l=10 ' no bits in error |
| // 'l=00 ' single bit error (fails above) |
| // 'l=1 ' single bit error |
| // 'l=0 ' double bit error |
| // There are others, not typically critical because of 2% |
| // battery_dead_threshold. KISS check, make sure second |
| // character after digit sequence is not a space. |
| if ((level <= 100) && (endptr != digits.c_str()) && (endptr[0] == ' ') && (endptr[1] != ' ')) { |
| LOG(INFO) << "Battery level at shutdown " << level << "%"; |
| if (level <= battery_dead_threshold) { |
| ret = "shutdown,battery"; |
| } |
| } else { // Most likely |
| digits = ""; // reset digits |
| |
| // Content buffer no longer will have console data. Beware if more |
| // checks added below, that depend on parsing console content. |
| content = ""; |
| |
| LOG(DEBUG) << "Can not find last low battery in last console messages"; |
| android_logcat_context ctx = create_android_logcat(); |
| FILE* fp = android_logcat_popen(&ctx, "logcat -b kernel -v brief -d"); |
| if (fp != nullptr) { |
| android::base::ReadFdToString(fileno(fp), &content); |
| } |
| android_logcat_pclose(&ctx, fp); |
| static const char logcat_battery[] = "W/healthd ( 0): battery l="; |
| const char* match = logcat_battery; |
| |
| if (content == "") { |
| // Service logd.klog not running, go to smaller buffer in the kernel. |
| int rc = klogctl(KLOG_SIZE_BUFFER, nullptr, 0); |
| if (rc > 0) { |
| ssize_t len = rc + 1024; // 1K Margin should it grow between calls. |
| std::unique_ptr<char[]> buf(new char[len]); |
| rc = klogctl(KLOG_READ_ALL, buf.get(), len); |
| if (rc < len) { |
| len = rc + 1; |
| } |
| buf[--len] = '\0'; |
| content = buf.get(); |
| } |
| match = battery; |
| } |
| |
| pos = content.find(match); // The first one it finds. |
| if (pos != std::string::npos) { |
| digits = content.substr(pos + strlen(match), strlen("100 ")); |
| } |
| endptr = digits.c_str(); |
| level = 0; |
| while (::isdigit(*endptr)) { |
| level *= 10; |
| level += *endptr++ - '0'; |
| // make sure no leading zeros, except zero itself, and range check. |
| if ((level == 0) || (level > 100)) break; |
| } |
| if ((level <= 100) && (endptr != digits.c_str()) && (*endptr == ' ')) { |
| LOG(INFO) << "Battery level at startup " << level << "%"; |
| if (level <= battery_dead_threshold) { |
| ret = "shutdown,battery"; |
| } |
| } else { |
| LOG(DEBUG) << "Can not find first battery level in dmesg or logcat"; |
| } |
| } |
| } |
| |
| // Is there a controlled shutdown hint in last_reboot_reason_property? |
| if (isBluntRebootReason(ret)) { |
| // Content buffer no longer will have console data. Beware if more |
| // checks added below, that depend on parsing console content. |
| content = GetProperty(last_reboot_reason_property); |
| transformReason(content); |
| |
| // Anything in last is better than 'super-blunt' reboot or shutdown. |
| if ((ret == "") || (ret == "reboot") || (ret == "shutdown") || !isBluntRebootReason(content)) { |
| ret = content; |
| } |
| } |
| |
| // Other System Health HAL reasons? |
| |
| // ToDo: /proc/sys/kernel/boot_reason needs a HAL interface to |
| // possibly offer hardware-specific clues from the PMIC. |
| } |
| |
| // If unknown left over from above, make it "reboot,<boot_reason>" |
| if (ret == "") { |
| ret = "reboot"; |
| if (android::base::StartsWith(reason, "reboot")) { |
| reason = reason.substr(strlen("reboot")); |
| while ((reason[0] == ',') || (reason[0] == '_')) { |
| reason = reason.substr(1); |
| } |
| } |
| if (reason != "") { |
| ret += ","; |
| ret += reason; |
| } |
| } |
| |
| LOG(INFO) << "Canonical boot reason: " << ret; |
| if (isKernelRebootReason(ret) && (GetProperty(last_reboot_reason_property) != "")) { |
| // Rewrite as it must be old news, kernel reasons trump user space. |
| SetProperty(last_reboot_reason_property, ret); |
| } |
| return ret; |
| } |
| |
| // Returns the appropriate metric key prefix for the boot_complete metric such |
| // that boot metrics after a system update are labeled as ota_boot_complete; |
| // otherwise, they are labeled as boot_complete. This method encapsulates the |
| // bookkeeping required to track when a system update has occurred by storing |
| // the UTC timestamp of the system build date and comparing against the current |
| // system build date. |
| std::string CalculateBootCompletePrefix() { |
| static const std::string kBuildDateKey = "build_date"; |
| std::string boot_complete_prefix = "boot_complete"; |
| |
| std::string build_date_str = GetProperty("ro.build.date.utc"); |
| int32_t build_date; |
| if (!android::base::ParseInt(build_date_str, &build_date)) { |
| return std::string(); |
| } |
| |
| BootEventRecordStore boot_event_store; |
| BootEventRecordStore::BootEventRecord record; |
| if (!boot_event_store.GetBootEvent(kBuildDateKey, &record)) { |
| boot_complete_prefix = "factory_reset_" + boot_complete_prefix; |
| boot_event_store.AddBootEventWithValue(kBuildDateKey, build_date); |
| LOG(INFO) << "Canonical boot reason: reboot,factory_reset"; |
| SetProperty(system_reboot_reason_property, "reboot,factory_reset"); |
| } else if (build_date != record.second) { |
| boot_complete_prefix = "ota_" + boot_complete_prefix; |
| boot_event_store.AddBootEventWithValue(kBuildDateKey, build_date); |
| LOG(INFO) << "Canonical boot reason: reboot,ota"; |
| SetProperty(system_reboot_reason_property, "reboot,ota"); |
| } |
| |
| return boot_complete_prefix; |
| } |
| |
| // Records the value of a given ro.boottime.init property in milliseconds. |
| void RecordInitBootTimeProp(BootEventRecordStore* boot_event_store, const char* property) { |
| std::string value = GetProperty(property); |
| |
| int32_t time_in_ms; |
| if (android::base::ParseInt(value, &time_in_ms)) { |
| boot_event_store->AddBootEventWithValue(property, time_in_ms); |
| } |
| } |
| |
| // A map from bootloader timing stage to the time that stage took during boot. |
| typedef std::map<std::string, int32_t> BootloaderTimingMap; |
| |
| // Returns a mapping from bootloader stage names to the time those stages |
| // took to boot. |
| const BootloaderTimingMap GetBootLoaderTimings() { |
| BootloaderTimingMap timings; |
| |
| // |ro.boot.boottime| is of the form 'stage1:time1,...,stageN:timeN', |
| // where timeN is in milliseconds. |
| std::string value = GetProperty("ro.boot.boottime"); |
| if (value.empty()) { |
| // ro.boot.boottime is not reported on all devices. |
| return BootloaderTimingMap(); |
| } |
| |
| auto stages = android::base::Split(value, ","); |
| for (const auto& stageTiming : stages) { |
| // |stageTiming| is of the form 'stage:time'. |
| auto stageTimingValues = android::base::Split(stageTiming, ":"); |
| DCHECK_EQ(2U, stageTimingValues.size()); |
| |
| std::string stageName = stageTimingValues[0]; |
| int32_t time_ms; |
| if (android::base::ParseInt(stageTimingValues[1], &time_ms)) { |
| timings[stageName] = time_ms; |
| } |
| } |
| |
| return timings; |
| } |
| |
| // Returns the total bootloader boot time from the ro.boot.boottime system property. |
| int32_t GetBootloaderTime(const BootloaderTimingMap& bootloader_timings) { |
| int32_t total_time = 0; |
| for (const auto& timing : bootloader_timings) { |
| total_time += timing.second; |
| } |
| |
| return total_time; |
| } |
| |
| // Parses and records the set of bootloader stages and associated boot times |
| // from the ro.boot.boottime system property. |
| void RecordBootloaderTimings(BootEventRecordStore* boot_event_store, |
| const BootloaderTimingMap& bootloader_timings) { |
| int32_t total_time = 0; |
| for (const auto& timing : bootloader_timings) { |
| total_time += timing.second; |
| boot_event_store->AddBootEventWithValue("boottime.bootloader." + timing.first, timing.second); |
| } |
| |
| boot_event_store->AddBootEventWithValue("boottime.bootloader.total", total_time); |
| } |
| |
| // Returns the closest estimation to the absolute device boot time, i.e., |
| // from power on to boot_complete, including bootloader times. |
| std::chrono::milliseconds GetAbsoluteBootTime(const BootloaderTimingMap& bootloader_timings, |
| std::chrono::milliseconds uptime) { |
| int32_t bootloader_time_ms = 0; |
| |
| for (const auto& timing : bootloader_timings) { |
| if (timing.first.compare("SW") != 0) { |
| bootloader_time_ms += timing.second; |
| } |
| } |
| |
| auto bootloader_duration = std::chrono::milliseconds(bootloader_time_ms); |
| return bootloader_duration + uptime; |
| } |
| |
| // Records the closest estimation to the absolute device boot time in seconds. |
| // i.e. from power on to boot_complete, including bootloader times. |
| void RecordAbsoluteBootTime(BootEventRecordStore* boot_event_store, |
| std::chrono::milliseconds absolute_total) { |
| auto absolute_total_sec = std::chrono::duration_cast<std::chrono::seconds>(absolute_total); |
| boot_event_store->AddBootEventWithValue("absolute_boot_time", absolute_total_sec.count()); |
| } |
| |
| // Logs the total boot time and reason to statsd. |
| void LogBootInfoToStatsd(std::chrono::milliseconds end_time, |
| std::chrono::milliseconds total_duration, int32_t bootloader_duration_ms, |
| double time_since_last_boot_sec) { |
| const std::string reason(GetProperty(bootloader_reboot_reason_property)); |
| |
| if (reason.empty()) { |
| android::util::stats_write(android::util::BOOT_SEQUENCE_REPORTED, "<EMPTY>", "<EMPTY>", |
| end_time.count(), total_duration.count(), |
| (int64_t)bootloader_duration_ms, |
| (int64_t)time_since_last_boot_sec * 1000); |
| return; |
| } |
| |
| const std::string system_reason(GetProperty(system_reboot_reason_property)); |
| android::util::stats_write(android::util::BOOT_SEQUENCE_REPORTED, reason.c_str(), |
| system_reason.c_str(), end_time.count(), total_duration.count(), |
| (int64_t)bootloader_duration_ms, |
| (int64_t)time_since_last_boot_sec * 1000); |
| } |
| |
| void SetSystemBootReason() { |
| const std::string bootloader_boot_reason(GetProperty(bootloader_reboot_reason_property)); |
| const std::string system_boot_reason(BootReasonStrToReason(bootloader_boot_reason)); |
| // Record the scrubbed system_boot_reason to the property |
| SetProperty(system_reboot_reason_property, system_boot_reason); |
| } |
| |
| // Gets the boot time offset. This is useful when Android is running in a |
| // container, because the boot_clock is not reset when Android reboots. |
| std::chrono::nanoseconds GetBootTimeOffset() { |
| static const int64_t boottime_offset = |
| android::base::GetIntProperty<int64_t>("ro.boot.boottime_offset", 0); |
| return std::chrono::nanoseconds(boottime_offset); |
| } |
| |
| // Returns the current uptime, accounting for any offset in the CLOCK_BOOTTIME |
| // clock. |
| android::base::boot_clock::duration GetUptime() { |
| return android::base::boot_clock::now().time_since_epoch() - GetBootTimeOffset(); |
| } |
| |
| // Records several metrics related to the time it takes to boot the device, |
| // including disambiguating boot time on encrypted or non-encrypted devices. |
| void RecordBootComplete() { |
| BootEventRecordStore boot_event_store; |
| BootEventRecordStore::BootEventRecord record; |
| |
| auto uptime_ns = GetUptime(); |
| auto uptime_s = std::chrono::duration_cast<std::chrono::seconds>(uptime_ns); |
| time_t current_time_utc = time(nullptr); |
| time_t time_since_last_boot = 0; |
| |
| if (boot_event_store.GetBootEvent("last_boot_time_utc", &record)) { |
| time_t last_boot_time_utc = record.second; |
| time_since_last_boot = difftime(current_time_utc, last_boot_time_utc); |
| boot_event_store.AddBootEventWithValue("time_since_last_boot", time_since_last_boot); |
| } |
| |
| boot_event_store.AddBootEventWithValue("last_boot_time_utc", current_time_utc); |
| |
| // The boot_complete metric has two variants: boot_complete and |
| // ota_boot_complete. The latter signifies that the device is booting after |
| // a system update. |
| std::string boot_complete_prefix = CalculateBootCompletePrefix(); |
| if (boot_complete_prefix.empty()) { |
| // The system is hosed because the build date property could not be read. |
| return; |
| } |
| |
| // post_decrypt_time_elapsed is only logged on encrypted devices. |
| if (boot_event_store.GetBootEvent("post_decrypt_time_elapsed", &record)) { |
| // Log the amount of time elapsed until the device is decrypted, which |
| // includes the variable amount of time the user takes to enter the |
| // decryption password. |
| boot_event_store.AddBootEventWithValue("boot_decryption_complete", uptime_s.count()); |
| |
| // Subtract the decryption time to normalize the boot cycle timing. |
| std::chrono::seconds boot_complete = std::chrono::seconds(uptime_s.count() - record.second); |
| boot_event_store.AddBootEventWithValue(boot_complete_prefix + "_post_decrypt", |
| boot_complete.count()); |
| } else { |
| boot_event_store.AddBootEventWithValue(boot_complete_prefix + "_no_encryption", |
| uptime_s.count()); |
| } |
| |
| // Record the total time from device startup to boot complete, regardless of |
| // encryption state. |
| boot_event_store.AddBootEventWithValue(boot_complete_prefix, uptime_s.count()); |
| |
| RecordInitBootTimeProp(&boot_event_store, "ro.boottime.init"); |
| RecordInitBootTimeProp(&boot_event_store, "ro.boottime.init.selinux"); |
| RecordInitBootTimeProp(&boot_event_store, "ro.boottime.init.cold_boot_wait"); |
| |
| const BootloaderTimingMap bootloader_timings = GetBootLoaderTimings(); |
| int32_t bootloader_boot_duration = GetBootloaderTime(bootloader_timings); |
| RecordBootloaderTimings(&boot_event_store, bootloader_timings); |
| |
| auto uptime_ms = std::chrono::duration_cast<std::chrono::milliseconds>(uptime_ns); |
| auto absolute_boot_time = GetAbsoluteBootTime(bootloader_timings, uptime_ms); |
| RecordAbsoluteBootTime(&boot_event_store, absolute_boot_time); |
| |
| auto boot_end_time_point = std::chrono::system_clock::now().time_since_epoch(); |
| auto boot_end_time = std::chrono::duration_cast<std::chrono::milliseconds>(boot_end_time_point); |
| |
| LogBootInfoToStatsd(boot_end_time, absolute_boot_time, bootloader_boot_duration, |
| time_since_last_boot); |
| } |
| |
| // Records the boot_reason metric by querying the ro.boot.bootreason system |
| // property. |
| void RecordBootReason() { |
| const std::string reason(GetProperty(bootloader_reboot_reason_property)); |
| |
| if (reason.empty()) { |
| // Log an empty boot reason value as '<EMPTY>' to ensure the value is intentional |
| // (and not corruption anywhere else in the reporting pipeline). |
| android::metricslogger::LogMultiAction(android::metricslogger::ACTION_BOOT, |
| android::metricslogger::FIELD_PLATFORM_REASON, "<EMPTY>"); |
| } else { |
| android::metricslogger::LogMultiAction(android::metricslogger::ACTION_BOOT, |
| android::metricslogger::FIELD_PLATFORM_REASON, reason); |
| } |
| |
| // Log the raw bootloader_boot_reason property value. |
| int32_t boot_reason = BootReasonStrToEnum(reason); |
| BootEventRecordStore boot_event_store; |
| boot_event_store.AddBootEventWithValue("boot_reason", boot_reason); |
| |
| // Log the scrubbed system_boot_reason. |
| const std::string system_reason(GetProperty(system_reboot_reason_property)); |
| int32_t system_boot_reason = BootReasonStrToEnum(system_reason); |
| boot_event_store.AddBootEventWithValue("system_boot_reason", system_boot_reason); |
| |
| if (reason == "") { |
| SetProperty(bootloader_reboot_reason_property, system_reason); |
| } |
| } |
| |
| // Records two metrics related to the user resetting a device: the time at |
| // which the device is reset, and the time since the user last reset the |
| // device. The former is only set once per-factory reset. |
| void RecordFactoryReset() { |
| BootEventRecordStore boot_event_store; |
| BootEventRecordStore::BootEventRecord record; |
| |
| time_t current_time_utc = time(nullptr); |
| |
| if (current_time_utc < 0) { |
| // UMA does not display negative values in buckets, so convert to positive. |
| android::metricslogger::LogHistogram("factory_reset_current_time_failure", |
| std::abs(current_time_utc)); |
| |
| // Logging via BootEventRecordStore to see if using android::metricslogger::LogHistogram |
| // is losing records somehow. |
| boot_event_store.AddBootEventWithValue("factory_reset_current_time_failure", |
| std::abs(current_time_utc)); |
| return; |
| } else { |
| android::metricslogger::LogHistogram("factory_reset_current_time", current_time_utc); |
| |
| // Logging via BootEventRecordStore to see if using android::metricslogger::LogHistogram |
| // is losing records somehow. |
| boot_event_store.AddBootEventWithValue("factory_reset_current_time", current_time_utc); |
| } |
| |
| // The factory_reset boot event does not exist after the device is reset, so |
| // use this signal to mark the time of the factory reset. |
| if (!boot_event_store.GetBootEvent("factory_reset", &record)) { |
| boot_event_store.AddBootEventWithValue("factory_reset", current_time_utc); |
| |
| // Don't log the time_since_factory_reset until some time has elapsed. |
| // The data is not meaningful yet and skews the histogram buckets. |
| return; |
| } |
| |
| // Calculate and record the difference in time between now and the |
| // factory_reset time. |
| time_t factory_reset_utc = record.second; |
| android::metricslogger::LogHistogram("factory_reset_record_value", factory_reset_utc); |
| |
| // Logging via BootEventRecordStore to see if using android::metricslogger::LogHistogram |
| // is losing records somehow. |
| boot_event_store.AddBootEventWithValue("factory_reset_record_value", factory_reset_utc); |
| |
| time_t time_since_factory_reset = difftime(current_time_utc, factory_reset_utc); |
| boot_event_store.AddBootEventWithValue("time_since_factory_reset", time_since_factory_reset); |
| } |
| |
| } // namespace |
| |
| int main(int argc, char** argv) { |
| android::base::InitLogging(argv); |
| |
| const std::string cmd_line = GetCommandLine(argc, argv); |
| LOG(INFO) << "Service started: " << cmd_line; |
| |
| int option_index = 0; |
| static const char value_str[] = "value"; |
| static const char system_boot_reason_str[] = "set_system_boot_reason"; |
| static const char boot_complete_str[] = "record_boot_complete"; |
| static const char boot_reason_str[] = "record_boot_reason"; |
| static const char factory_reset_str[] = "record_time_since_factory_reset"; |
| static const struct option long_options[] = { |
| // clang-format off |
| { "help", no_argument, NULL, 'h' }, |
| { "log", no_argument, NULL, 'l' }, |
| { "print", no_argument, NULL, 'p' }, |
| { "record", required_argument, NULL, 'r' }, |
| { value_str, required_argument, NULL, 0 }, |
| { system_boot_reason_str, no_argument, NULL, 0 }, |
| { boot_complete_str, no_argument, NULL, 0 }, |
| { boot_reason_str, no_argument, NULL, 0 }, |
| { factory_reset_str, no_argument, NULL, 0 }, |
| { NULL, 0, NULL, 0 } |
| // clang-format on |
| }; |
| |
| std::string boot_event; |
| std::string value; |
| int opt = 0; |
| while ((opt = getopt_long(argc, argv, "hlpr:", long_options, &option_index)) != -1) { |
| switch (opt) { |
| // This case handles long options which have no single-character mapping. |
| case 0: { |
| const std::string option_name = long_options[option_index].name; |
| if (option_name == value_str) { |
| // |optarg| is an external variable set by getopt representing |
| // the option argument. |
| value = optarg; |
| } else if (option_name == system_boot_reason_str) { |
| SetSystemBootReason(); |
| } else if (option_name == boot_complete_str) { |
| RecordBootComplete(); |
| } else if (option_name == boot_reason_str) { |
| RecordBootReason(); |
| } else if (option_name == factory_reset_str) { |
| RecordFactoryReset(); |
| } else { |
| LOG(ERROR) << "Invalid option: " << option_name; |
| } |
| break; |
| } |
| |
| case 'h': { |
| ShowHelp(argv[0]); |
| break; |
| } |
| |
| case 'l': { |
| LogBootEvents(); |
| break; |
| } |
| |
| case 'p': { |
| PrintBootEvents(); |
| break; |
| } |
| |
| case 'r': { |
| // |optarg| is an external variable set by getopt representing |
| // the option argument. |
| boot_event = optarg; |
| break; |
| } |
| |
| default: { |
| DCHECK_EQ(opt, '?'); |
| |
| // |optopt| is an external variable set by getopt representing |
| // the value of the invalid option. |
| LOG(ERROR) << "Invalid option: " << optopt; |
| ShowHelp(argv[0]); |
| return EXIT_FAILURE; |
| } |
| } |
| } |
| |
| if (!boot_event.empty()) { |
| RecordBootEventFromCommandLine(boot_event, value); |
| } |
| |
| return 0; |
| } |